Anesthesia for bariatric surgery in the morbid obese patients is challenging... We sought to sum up our preferred anesthetic technique for the morbid obese patients undergoing weight loss surgery in a kind of template that we called it “bariatric anesthesia ladder” [Figure 1]... Then we moved to the intraoperative section the ladder where we have focused on preoxygenation to lessen the likelihood of desaturation during apnea that may be a valuable tool if difficulty is encountered in tracheal intubation... Intraoperative analgesia can be better achieved using continuous intravenous remifentanil infusion... Also, the importance of the NMJ monitoring extended to the recovery phase whereby tracheal extubation to be performed only when the train of four ratio attained a figure >0.9... Tracheal intubation better facilitated with either suxamethonium or rocuronium with the patient in ramp position to aid in successful tracheal intubation when a laryngoscope is employed... Regarding inhalation anesthetics, it was reported that desflurane is ideal for bariatric anesthesia due to its unique physical properties... Intraoperative anesthetic management can be guided with a processed electroencephalogram monitor, bispectral index or entropy to help improve emergence and to enhance wakefulness in the postanesthesia care unit... The last section in the ladder is the postoperative period... We believe that the postoperative analgesia period begins upon the completion of the surgical procedure... In our practice, we use to give nonsteroidal anti-inflammatory drugs (NSAIDs) and acetaminophen as well as a small dose of opioid analgesic provided no contraindication... Careful consideration must be given to postoperative analgesic needs by minimizing the use of opioids and employing nonopioid analgesics including NSAIDs and acetaminophen... We believe that such kind of “bariatric anesthesia ladder” will provide anesthesiologists with a comprehensive anesthetic protocol for perioperative management of morbid obese patients undergoing weight loss surgery.

Mentions:
Anesthesia for bariatric surgery in the morbid obese patients is challenging. In our previous report on “road map” toward establishing a clinical practice guidelines for anesthesia in the morbid obese patient, we have described the methodology we have used to reach those guidelines.[1] We sought to sum up our preferred anesthetic technique for the morbid obese patients undergoing weight loss surgery in a kind of template that we called it “bariatric anesthesia ladder” [Figure 1]. We understand that the anesthetic management of the morbid obese patient requires a significant focus on a number of issues beginning with a background of the comorbidities associated with these patients. In the background box in the ladder, we focused on the importance of the anatomical, physiological, pharmacological, and pathological issues of these patients with special reference to cardiorespiratory system and control of diabetes mellitus with common association of delayed gastric emptying and possible aspiration. Furthermore in the background section, we surfaced the difficulties encountered during patient transfer and positioning on the operating table and the importance of protecting the superficial nerves from external pressures. We have focused on the careful preoperative evaluation and seizing the preexisting disease, if any, with the anesthetic management plan. Obstructive sleep apnea (OSA) disorder, difficult airway, and premedication were among the most important issues encountered in the preoperative evaluation section in the ladder with special reference to thromboprophylaxis. Then we moved to the intraoperative section the ladder where we have focused on preoxygenation to lessen the likelihood of desaturation during apnea that may be a valuable tool if difficulty is encountered in tracheal intubation. Intraoperative analgesia can be better achieved using continuous intravenous remifentanil infusion. Also, we have focused on the monitoring with special reference to the neuromuscular transmission and its likelihood importance in monitoring the depth and adequacy of the neuromuscular junction (NMJ) since these patients usually require deep NMJ blockade. Also, the importance of the NMJ monitoring extended to the recovery phase whereby tracheal extubation to be performed only when the train of four ratio attained a figure >0.9. Tracheal intubation better facilitated with either suxamethonium or rocuronium with the patient in ramp position to aid in successful tracheal intubation when a laryngoscope is employed. We have stressed upon the importance of using the GlideScope for tracheal intubation as well as for tonometric tube insertion in the esophagus under direct vision. Since the introduction of sugammadex as selective reversal agent to rocuronium fast track bariatric anesthesia became feasible. We believe that the sugammadex has changes the anesthesia practice in bariatric surgery with special reference to patients with OSA where the patients will be able to control their reflexes without any postoperative residual curarization. Regarding inhalation anesthetics, it was reported that desflurane is ideal for bariatric anesthesia due to its unique physical properties.[2] Intraoperative anesthetic management can be guided with a processed electroencephalogram monitor, bispectral index or entropy to help improve emergence and to enhance wakefulness in the postanesthesia care unit. The last section in the ladder is the postoperative period. We believe that the postoperative analgesia period begins upon the completion of the surgical procedure. In our practice, we use to give nonsteroidal anti-inflammatory drugs (NSAIDs) and acetaminophen as well as a small dose of opioid analgesic provided no contraindication. Careful consideration must be given to postoperative analgesic needs by minimizing the use of opioids and employing nonopioid analgesics including NSAIDs and acetaminophen.

Mentions:
Anesthesia for bariatric surgery in the morbid obese patients is challenging. In our previous report on “road map” toward establishing a clinical practice guidelines for anesthesia in the morbid obese patient, we have described the methodology we have used to reach those guidelines.[1] We sought to sum up our preferred anesthetic technique for the morbid obese patients undergoing weight loss surgery in a kind of template that we called it “bariatric anesthesia ladder” [Figure 1]. We understand that the anesthetic management of the morbid obese patient requires a significant focus on a number of issues beginning with a background of the comorbidities associated with these patients. In the background box in the ladder, we focused on the importance of the anatomical, physiological, pharmacological, and pathological issues of these patients with special reference to cardiorespiratory system and control of diabetes mellitus with common association of delayed gastric emptying and possible aspiration. Furthermore in the background section, we surfaced the difficulties encountered during patient transfer and positioning on the operating table and the importance of protecting the superficial nerves from external pressures. We have focused on the careful preoperative evaluation and seizing the preexisting disease, if any, with the anesthetic management plan. Obstructive sleep apnea (OSA) disorder, difficult airway, and premedication were among the most important issues encountered in the preoperative evaluation section in the ladder with special reference to thromboprophylaxis. Then we moved to the intraoperative section the ladder where we have focused on preoxygenation to lessen the likelihood of desaturation during apnea that may be a valuable tool if difficulty is encountered in tracheal intubation. Intraoperative analgesia can be better achieved using continuous intravenous remifentanil infusion. Also, we have focused on the monitoring with special reference to the neuromuscular transmission and its likelihood importance in monitoring the depth and adequacy of the neuromuscular junction (NMJ) since these patients usually require deep NMJ blockade. Also, the importance of the NMJ monitoring extended to the recovery phase whereby tracheal extubation to be performed only when the train of four ratio attained a figure >0.9. Tracheal intubation better facilitated with either suxamethonium or rocuronium with the patient in ramp position to aid in successful tracheal intubation when a laryngoscope is employed. We have stressed upon the importance of using the GlideScope for tracheal intubation as well as for tonometric tube insertion in the esophagus under direct vision. Since the introduction of sugammadex as selective reversal agent to rocuronium fast track bariatric anesthesia became feasible. We believe that the sugammadex has changes the anesthesia practice in bariatric surgery with special reference to patients with OSA where the patients will be able to control their reflexes without any postoperative residual curarization. Regarding inhalation anesthetics, it was reported that desflurane is ideal for bariatric anesthesia due to its unique physical properties.[2] Intraoperative anesthetic management can be guided with a processed electroencephalogram monitor, bispectral index or entropy to help improve emergence and to enhance wakefulness in the postanesthesia care unit. The last section in the ladder is the postoperative period. We believe that the postoperative analgesia period begins upon the completion of the surgical procedure. In our practice, we use to give nonsteroidal anti-inflammatory drugs (NSAIDs) and acetaminophen as well as a small dose of opioid analgesic provided no contraindication. Careful consideration must be given to postoperative analgesic needs by minimizing the use of opioids and employing nonopioid analgesics including NSAIDs and acetaminophen.

Anesthesia for bariatric surgery in the morbid obese patients is challenging... We sought to sum up our preferred anesthetic technique for the morbid obese patients undergoing weight loss surgery in a kind of template that we called it “bariatric anesthesia ladder” [Figure 1]... Then we moved to the intraoperative section the ladder where we have focused on preoxygenation to lessen the likelihood of desaturation during apnea that may be a valuable tool if difficulty is encountered in tracheal intubation... Intraoperative analgesia can be better achieved using continuous intravenous remifentanil infusion... Also, the importance of the NMJ monitoring extended to the recovery phase whereby tracheal extubation to be performed only when the train of four ratio attained a figure >0.9... Tracheal intubation better facilitated with either suxamethonium or rocuronium with the patient in ramp position to aid in successful tracheal intubation when a laryngoscope is employed... Regarding inhalation anesthetics, it was reported that desflurane is ideal for bariatric anesthesia due to its unique physical properties... Intraoperative anesthetic management can be guided with a processed electroencephalogram monitor, bispectral index or entropy to help improve emergence and to enhance wakefulness in the postanesthesia care unit... The last section in the ladder is the postoperative period... We believe that the postoperative analgesia period begins upon the completion of the surgical procedure... In our practice, we use to give nonsteroidal anti-inflammatory drugs (NSAIDs) and acetaminophen as well as a small dose of opioid analgesic provided no contraindication... Careful consideration must be given to postoperative analgesic needs by minimizing the use of opioids and employing nonopioid analgesics including NSAIDs and acetaminophen... We believe that such kind of “bariatric anesthesia ladder” will provide anesthesiologists with a comprehensive anesthetic protocol for perioperative management of morbid obese patients undergoing weight loss surgery.